Summary

The ret finger protein (rfp) is a member of the B box zinc finger gene family which possesses a tripartite motif consisting of a RING finger, B box finger, and a coiled-coil domain. Rfp is expressed at specific stages of spermatogenesis and in various adult mouse and human tissues. It becomes oncogenic when the tripartite domain is recombined with the tyrosine kinase domain of the ret protooncogene. Many of the B box family proteins function as homodimers, although the role of the individual components of the tripartite motif in this process remains unclear. We demonstrate that rfp homomultimerization occurs through the coiled-coil domains; however, while the B box is not an interacting interface itself, its structural integrity is necessary for this interaction to occur. This is the first evidence that the B box zinc finger domain is involved in regulating protein-protein interactions. Interestingly, we find that mutations of the RING finger and B box affect the subcellular compartmentalization of rfp in various cell lines. These results demonstrate that the interactions of rfp with itself and its association with specific subcellular compartments is dependent upon the function of all of the components of the tripartite motif. It is likely that these domains play a crucial role in the function of the rfp protein in normal cell differentiation and in its transformation potential in the recombined state.

Marian Blanca Ramírez from the CSIC in Spain has been studying the effects of LRRK2, a protein associated with Parkinson’s disease, on cell motility. A Travelling Fellowship from Journal of Cell Science allowed her to spend time in Prof Maddy Parson’s lab at King’s College London, learning new cell migration assays and analysing fibroblasts cultured from individuals with Parkinson’s. Read more on her story here.

Where could your research take you? The deadline to apply for the current round of Travelling Fellowships is 23rd Feburary 2018. Apply now!